CN210340668U - Silt and waste slurry drying production line - Google Patents

Abstract

The utility model relates to a silt slurry drying production line, include feed mechanism, rabbling mechanism, stoving mechanism, broken mechanism and the conveying mechanism that sets gradually along material transmission direction, the utility model discloses the effect that reduces the stoving cost has.

Description

Silt and waste slurry drying production line

Technical Field

The utility model belongs to the technical field of the technique of drying production line and specifically relates to a drying production line of silt slurry is related to.

Background

With the rapid development of economy in China, the stone processing industry is rapidly developed; however, the stone generates a large amount of waste materials in the processing process; according to statistics, according to different processing modes, the amount of the waste stone slurry generated by stone processing accounts for about 20-30% of the weight of the processed raw stone material; therefore, how to treat a large amount of stone waste slurry is a more serious problem currently faced by stone processing enterprises.

At present, some stone processing enterprises adopt methods such as coagulating sedimentation and the like to treat stone waste slurry, treated clear water is directly discharged or recycled as reuse water, and treated sludge is usually treated by adopting a direct landfill or accumulation method; although the treatment method solves the pollution problem of the waste stone slurry to a certain extent, the sludge generated by treating the waste stone slurry is directly accumulated or buried, so that the great resource waste is caused, and the economic principle is not met; in order to realize resource utilization of the stone waste slurry or sludge and reduce the treatment cost of the stone waste slurry and sludge, most stone processing enterprises are exploring ways of changing the stone waste slurry and sludge into valuable.

In recent years, along with the rapid development of the building industry, the demand for building materials is increasing, and some building bricks or cement and the like which are made of stone waste slurry or sludge and the like as production raw materials appear on the market at present; however, the stone waste slurry and sludge have a high water content, and thus are inconvenient to transport and store.

The traditional Chinese utility model with patent publication number CN208949122U discloses an environment-friendly sludge drying treatment device, which comprises a case, wherein the case is provided with a primary drying cavity, a secondary drying cavity and a discharging cavity, a frame is installed at the rear side of the case and is divided into a first transmission frame and a second transmission frame, a discharging opening is arranged between the secondary drying cavity and the primary drying cavity and communicated with each other, a baffle plate is arranged at the discharging opening, the baffle plate is transversely installed in the case, a transmission roller and a driven roller are installed in the second transmission frame respectively, the transmission roller and the driven roller are connected through a second transmission belt, a crushing motor is installed at the front end of the secondary drying cavity, and a crushing rotating shaft is transversely installed in the secondary drying cavity; this prior art can dry stone material waste slurry and silt, reaches the purpose of being convenient for transport and storage stone material waste slurry and silt.

The above prior art solutions have the following drawbacks: the material directly gets into drying device and carries out drying process, because the material probably is cubic, when cubic material directly got into drying device, drying device's elementary stoving chamber was lower to the inside drying efficiency of cubic material, has prolonged the stoving time of material in elementary stoving chamber to lead to the stoving cost to increase.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a silt slurry drying production line reaches the purpose that reduces the stoving cost.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

the utility model provides a silt slurry drying production line, includes feed mechanism, rabbling mechanism, stoving mechanism, broken mechanism and the conveying mechanism that sets gradually along material transmission direction.

By adopting the technical scheme, the feeding mechanism is arranged and used for conveying materials to the stirring mechanism; the stirring mechanism is arranged and can be used for stirring and crushing the materials with larger volume conveyed to the stirring mechanism; a drying mechanism is arranged at the next link of the stirring mechanism, and the drying mechanism is used for drying the stirred materials; the crushing mechanism is arranged in the next link of the drying mechanism, the dried material can be crushed, the granularity of the crushed material is uniform, and the crushed material is convenient to be subsequently used for producing building bricks or cement and the like; a conveying mechanism is arranged at the next link of the crushing mechanism, and the conveying mechanism can convey the crushed materials to a storage room or a transport vehicle; the stirring mechanism is arranged in front of the drying mechanism, so that the drying efficiency of the drying mechanism to materials can be improved, the time required by drying the materials is reduced, and the cost is reduced; in addition, the crushing mechanism is arranged behind the drying mechanism, dried materials are crushed more easily, time required by crushing the materials can be reduced, and therefore cost is further reduced.

The utility model discloses further set up to: the stirring mechanism and the conveying mechanism are arranged in parallel, the drying mechanism is arranged between the stirring mechanism and the conveying mechanism, the crushing mechanism is arranged below the drying mechanism and is arranged opposite to the conveying mechanism, and the feeding mechanism is arranged on one side, far away from the drying mechanism, of the stirring mechanism.

Through adopting above-mentioned technical scheme, silt waste slurry stoving production line is "U" style of calligraphy and arranges, can save the occupation of land space of silt waste slurry stoving production line.

The utility model discloses further set up to: the rabbling mechanism includes carries out the churn of stirring to the material, stoving mechanism includes carries out the stoving case of drying to the material, the discharge gate of churn is located the top of the feed inlet of stoving case.

Through adopting above-mentioned technical scheme, the discharge gate of churn is located the top of the feed inlet of stoving case, and the material after the stirring is broken directly falls into the feed inlet of stoving case from the discharge gate of churn, has saved and has carried the conveyor to the stoving case with the material after the stirring is broken, can practice thrift the transported substance material cost.

The utility model discloses further set up to: the discharge port of the mixing drum is connected with a diversion trench, and the tail end of the diversion trench is positioned above the feed port of the drying box.

Through adopting above-mentioned technical scheme, set up the guiding gutter, be convenient for with the material water conservancy diversion after the stirring is broken in the churn to the drying-box.

The utility model discloses further set up to: the crushing mechanism comprises a crusher for crushing the material, and a feed inlet of the crusher is positioned below a discharge port of the drying box.

By adopting the technical scheme, the feed inlet of the crusher is positioned below the discharge port of the drying box, the dried material can directly fall into the crusher from the discharge port of the drying box, the conveying device for conveying the dried material to the crusher is saved, and the cost for conveying the material can be saved.

The utility model discloses further set up to: and a far infrared heating device is arranged in the drying box.

Through adopting above-mentioned technical scheme, the stoving incasement sets up far infrared heating device, adopts far infrared heating technology to dry the material, can improve the stoving efficiency of stoving case to the material, practices thrift the stoving cost.

The utility model discloses further set up to: the conveying mechanism comprises a conveying belt driven by a motor to convey the crushed materials, and a discharge port of the crusher is positioned above a starting point of the conveying belt.

By adopting the technical scheme, the discharge port of the crusher is positioned above the starting point of the conveying belt, and the crushed materials directly fall onto the conveying belt through the discharge port of the crusher, so that the conveying device for conveying the crushed materials of the crusher to the conveying belt is saved, and the cost for conveying the materials can be saved.

The utility model discloses further set up to: the conveyer belt is arranged from one side of the starting point to one side of the end point in an inclined and upward manner.

Through adopting above-mentioned technical scheme, the conveyer belt slope upwards sets up, can be directly carry the material after the stoving breakage to the car hopper of transport vechicle in need not the manual work and carries out the loading, can practice thrift the cost of labor.

The utility model discloses further set up to: the silt slurry waste drying production line further comprises a circulating conveying mechanism, the circulating conveying mechanism comprises a conveying belt driven by a motor, the starting point of the conveying belt is located below the end point of the conveying belt, the feeding mechanism comprises a feeding hopper, and the end point of the conveying belt is located above an opening of the feeding hopper.

Through adopting above-mentioned technical scheme, set up circulation drive mechanism, can circulate the stoving to the material after the breakage as required, in addition, silt slurry drying line is "mouth" style of calligraphy and arranges, is favorable to saving space.

To sum up, the utility model discloses a beneficial technological effect does:

1. a feeding mechanism is arranged and used for conveying materials to the stirring mechanism; the stirring mechanism is arranged and can be used for stirring and crushing the materials with larger volume conveyed to the stirring mechanism; a drying mechanism is arranged at the next link of the stirring mechanism, and the drying mechanism is used for drying the stirred materials; the crushing mechanism is arranged in the next link of the drying mechanism, the dried material can be crushed, the granularity of the crushed material is uniform, and the crushed material is convenient to be subsequently used for producing building bricks or cement and the like; a conveying mechanism is arranged at the next link of the crushing mechanism, and the conveying mechanism can convey the crushed materials to a storage room or a transport vehicle; the stirring mechanism is arranged in front of the drying mechanism, so that the drying efficiency of the drying mechanism to materials can be improved, the time required by drying the materials is reduced, and the cost is reduced; in addition, the crushing mechanism is arranged behind the drying mechanism, so that the dried material is easier to crush, the time required for crushing the material can be reduced, and the cost is further reduced;

2. the sludge and waste slurry drying production lines are arranged in a U shape, so that the occupied space of the sludge and waste slurry drying production lines can be saved;

3. the discharge hole of the mixing drum is positioned above the feed hole of the drying box, and the material after being mixed and crushed directly falls into the feed hole of the drying box from the discharge hole of the mixing drum, so that a conveying device for conveying the material after being mixed and crushed to the drying box is saved, and the material conveying cost can be saved;

4. the feeding hole of the crusher is positioned below the discharging hole of the drying box, and the dried material can directly fall into the crusher from the discharging hole of the drying box, so that a conveying device for conveying the dried material to the crusher is saved, and the cost for conveying the material can be saved;

5. the far infrared heating device is arranged in the drying box, and the materials are dried by adopting a far infrared heating technology, so that the drying efficiency of the drying box on the materials can be improved, and the drying cost is saved;

6. the discharge port of the crusher is positioned above the starting point of the conveying belt, and the crushed materials directly fall onto the conveying belt through the discharge port of the crusher, so that a conveying device for conveying the crushed materials to the conveying belt is saved, and the cost for conveying the materials can be saved;

7. the conveying belt is obliquely arranged upwards, so that the dried and crushed materials can be directly conveyed into a hopper of the transport vehicle without being loaded manually, and the labor cost can be saved;

8. set up circulation drive mechanism, can circulate the stoving to the material after the breakage as required, in addition, silt slurry drying line is "mouth" style of calligraphy and arranges, is favorable to saving space.

Drawings

Fig. 1 is a top view of a first embodiment of the present invention.

Fig. 2 is a front view of the first embodiment of the present invention.

Fig. 3 is a plan view of a second embodiment of the present invention.

Fig. 4 is a front view of the second embodiment of the present invention.

In the figure, 1, a feeding mechanism; 11. feeding a hopper; 12. a transfer frame; 121. a support bar; 122. a guide bar; 2. a stirring mechanism; 21. a supporting seat; 22. a mixing drum; 221. a diversion trench; 3. a drying mechanism; 31. a drying box; 32. a support; 4. a crushing mechanism; 41. a breaker; 5. a conveying mechanism; 51. a conveyor belt; 6. a circulating transport mechanism; 61. and (4) a conveyor belt.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

referring to fig. 1 and 2, for the utility model discloses a mud slurry drying system that gives up, including feed mechanism 1, rabbling mechanism 2, drying mechanism 3, broken mechanism 4 and the conveying mechanism 5 that sets gradually along the material transmission direction. Wherein, rabbling mechanism 2 and conveying mechanism 5 parallel arrangement, stoving mechanism 3 is located between rabbling mechanism 2 and the conveying mechanism 5, and crushing mechanism 4 sets up and crushing mechanism 4 is located the below of stoving mechanism 3 with conveying mechanism 5 is relative, and in addition, feed mechanism 1 is located the one side that stoving mechanism 3 was kept away from to rabbling mechanism 2.

The feeding mechanism 1 comprises a conveying frame 12 and a feeding hopper 11 for feeding the stirring mechanism 2, wherein the conveying frame 12 comprises a supporting rod 121 and a guiding rod 122 which are arranged in a crossed manner at the top. The conveying frame 12 is oppositely arranged at two sides of the mixer, two oppositely arranged guide rods 122 are provided with guide rails, and the feeding hopper 11 feeds the mixing mechanism 2 along the guide rails on the guide rods 122 under the driving action of the motor.

The stirring mechanism 2 comprises a supporting seat 21 and a stirring barrel 22 positioned at the top of the supporting seat 21, a feeding hole is formed in the top of the stirring barrel 22, and the feeding hopper 11 conveys materials to the stirring barrel 22 from the feeding hole in the top of the stirring barrel 22. The mixing drum 22 is provided with a discharge port on the side opposite to the charging hopper 11.

The drying mechanism 3 comprises a support 32 and a drying box 31 arranged at the top of the support 32, and a far infrared heating device is arranged in the drying box 31. A feed inlet is arranged on one side of the drying box 31 close to the stirring mechanism 2, wherein the feed inlet of the drying box 31 is positioned below a discharge outlet of the stirring cylinder 22, a diversion trench 221 is arranged at the discharge outlet of the stirring cylinder 22, and the diversion trench 221 is inclined downwards from one side of the discharge outlet of the stirring cylinder 22 to one side of the feed inlet of the drying box 31. One side of the drying box 31 close to the crushing mechanism 4 is provided with a discharge port, and the discharge port of the drying box 31 is positioned above the crushing mechanism 4.

The crushing mechanism 4 comprises a crusher 41, wherein a feed inlet is arranged on one side of the crusher 41 close to the drying box 31, the feed inlet of the crusher 41 is arranged corresponding to the discharge outlet of the drying box 31, and the feed inlet of the crusher 41 is positioned above the discharge outlet of the drying box 31. A discharge port is arranged at one side of the crusher 41 close to the conveying mechanism 5, and the discharge port of the crusher 41 is positioned above the conveying mechanism 5.

The conveying mechanism 5 includes a conveying belt 51 disposed in parallel with the mixing drum 22 and the feeding hopper 11, and the conveying belt 51 is driven by a motor. Wherein, the conveyer belt 51 is arranged obliquely upwards, and the starting point of the conveyer belt 51 is positioned below the discharge port of the crusher 41.

The implementation principle of the embodiment is as follows: during operation, sludge or waste slurry is placed into the feeding hopper 11, the motor drives the feeding hopper 11 to ascend along the conveying frame 12 to convey materials to the stirring cylinder 22, and the stirring cylinder 22 stirs the materials entering the stirring cylinder 22, so that the materials with larger volume in the materials are smashed into materials with smaller volume; the crushed material is guided into the drying box 31 through the discharge port of the mixing drum 22 and the guide groove 221, and the drying efficiency of the drying box 31 on the material can be improved because the crushed material is small in volume, and in addition, the drying box 31 is heated by adopting a far infrared technology, so that the absorption effect of the heated material on radiation rays can be improved, the drying efficiency of the drying box 31 on the material can be further improved, and the drying cost of the drying box 31 can be reduced; the dried material directly falls into the crusher 41 through a discharge port of the drying box 31, and the crusher 41 further crushes the dried material, so that the particle size of the material is more uniform, and the material can be conveniently used for producing building bricks and the like; finally, the crushed materials directly fall onto the conveyer belt 51 of the conveying mechanism 5 from the discharge port of the crusher 41, and are conveyed to a storage room or a transport vehicle by the conveyer belt 51.

Example two:

referring to fig. 3 and 4, a circulating conveying mechanism 6 is arranged below the conveying belt 51, the circulating conveying mechanism 6 comprises a conveying belt 61 driven by a motor, wherein the conveying belt 61 is arranged obliquely downwards from a side close to the conveying belt 51 to a side of the feeding hopper 11 of the feeding mechanism 1, a starting point of the conveying belt 61 is positioned below an end point of the conveying belt 51, and the end point of the conveying belt 61 is positioned above an opening of the feeding hopper 11.

The implementation principle of the embodiment is as follows: during operation, sludge or waste slurry is placed into the feeding hopper 11, the motor drives the feeding hopper 11 to ascend along the conveying frame 12 to convey materials to the stirring cylinder 22, and the stirring cylinder 22 stirs the materials entering the stirring cylinder 22, so that the materials with larger volume in the materials are smashed into materials with smaller volume; the crushed material is guided into the drying box 31 through the discharge port of the mixing drum 22 and the guide groove 221, and the drying efficiency of the drying box 31 on the material can be improved because the crushed material is small in volume, and in addition, the drying box 31 is heated by adopting a far infrared technology, so that the absorption effect of the heated material on radiation rays can be improved, the drying efficiency of the drying box 31 on the material can be further improved, and the drying cost of the drying box 31 can be reduced; the dried material directly falls into the crusher 41 through a discharge port of the drying box 31, and the crusher 41 further crushes the dried material, so that the particle size of the material is more uniform, and the material can be conveniently used for producing building bricks and the like; finally, the crushed materials directly fall onto the conveying belt 51 of the conveying mechanism 5 from the discharge port of the crusher 41 and are conveyed to the feeding hopper 11 of the feeding mechanism 1 by the conveying belt 51, so that the materials needing to be circularly dried are circularly dried.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (9)

1. The utility model provides a silt slurry stoving production line which characterized in that: the material conveying device comprises a feeding mechanism (1), a stirring mechanism (2), a drying mechanism (3), a crushing mechanism (4) and a conveying mechanism (5) which are sequentially arranged along the material conveying direction.

2. The sludge waste slurry drying production line of claim 1, wherein: rabbling mechanism (2) and conveying mechanism (5) parallel arrangement, stoving mechanism (3) are located between rabbling mechanism (2) and conveying mechanism (5), crushing mechanism (4) are located the below of stoving mechanism (3) just crushing mechanism (4) set up with conveying mechanism (5) relatively, feed mechanism (1) are located one side that stoving mechanism (3) were kept away from in rabbling mechanism (2).

3. The sludge waste slurry drying production line of claim 2, wherein: rabbling mechanism (2) are including mixing drum (22) that carry out the stirring to the material, stoving mechanism (3) are including drying box (31) that carry out the stoving to the material, the discharge gate of mixing drum (22) is located the top of the feed inlet of drying box (31).

4. The sludge waste slurry drying production line of claim 3, wherein: the discharge hole of the mixing drum (22) is connected with a diversion trench (221), and the tail end of the diversion trench (221) is positioned above the feed hole of the drying box (31).

5. The sludge waste slurry drying production line of claim 3, wherein: crushing mechanism (4) are including carrying out broken breaker (41) to the material, the feed inlet of breaker (41) is located the below of the discharge gate of stoving case (31).

6. The sludge waste slurry drying production line of claim 5, wherein: and a far infrared heating device is arranged in the drying box (31).

7. The sludge waste slurry drying production line of claim 6, wherein: the conveying mechanism (5) comprises a conveying belt (51) driven by a motor to convey the crushed materials, and a discharge hole of the crusher (41) is located above a starting point of the conveying belt (51).

8. The sludge waste slurry drying production line of claim 7, wherein: the conveyor belt (51) is arranged obliquely upwards from one side of the starting point to one side of the end point.

9. The sludge waste slurry drying production line of claim 8, wherein: the sludge and waste slurry drying production line further comprises a circulating conveying mechanism (6), the circulating conveying mechanism (6) comprises a conveying belt (61) driven by a motor, the starting point of the conveying belt (61) is located below the end point of the conveying belt (51), the feeding mechanism (1) comprises a feeding hopper (11), and the end point of the conveying belt (61) is located above the opening of the feeding hopper (11).

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